Diazontized (125I) diiodosulafanilic acid as a label for cell surface membranes. Studies on erythrocytes.

1. Diazotized 2,6-diiodosulfanilic acid (DDISA) appears to have properties suitable to serve as an artificial, non-penetrating label of cell surface membranes. Therefore, the conditions for selective labeling of cell surface membranes as compared to intracellular proteins as well as a method for its chemical determination were explored in the present study. 2. DDISA reacts with alpha-naphthol at neutral pH to produce a compound (1-hydroxy-4-(2,6-diiodo-4-sulfo-1-phenylazo-(naphthylene)), DSPN) with a characteristic spectrum in the visible range (Amax 430 nm). The absorbance of the reaction product, DSPN, is linearly proportional to the concentration of DDISA and can be used as a method for the colorimetric determination of DDISA. Reaction of DDISA with a molar excess of alpha-naphthol was also used as a method for inactivating unreacted DDISA to terminate labeling prior to cell fractionation. 3. [125I]DDISA reacts avidly with a variety of basic, neutral and acidic proteins as well as with cell membranes to form an acid-stable covalent azo linkage. 4. Effectiveness of labeling of the surface membrane of intact erythrocytes after incubation with [125I]DDISA was assessed by th ratio of 125I incorporated into membrane proteins compared to intracellular proteins. When intact erythrocytes were exposed to [125I]DDISA, the optimal labeling of membranes occurred at 37 degrees C after 20 min of incubation time and at a concentration of 10(-4) M [125I]DDISA in the incubation media. Under these conditions the ratio of the specific activity (cpm 125I/mg protein) of the membrane fraction to the specific activity of the soluble protein fraction (membrane/supernatant ratio) was greater than 500. When incubations were conducted at 4 degrees C this ratio was less than 50. However, when osmotically lysed erythrocytes were incubated with [125I]DDISA the majority of the label reacted with the soluble protein fraction resulting in a membrane/supernatant ratio of 0.14. 5. The results thus suggest that [125I]DDISA used under the appropriate incubation conditions, including the inactivation and removal of [125I]DDISA by washing with alpha-naphthol, can serve as a highly selective membrane label with minimal incorporation into intracellular soluble proteins. The general applicability of this method for other cell types remains to be explored.